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Antiviral immunity triggered by infection-induced host transposable elements

Benjamin G. Hale

2021Current Opinion in Virology41 citationsDOIOpen Access PDF

Abstract

Host silencing of transposable elements (TEs) is critical to prevent genome damage and inappropriate inflammation. However, new evidence suggests that a virus-infected host may re-activate TEs and co-opt them for antiviral defense. RNA-Seq and specialized bioinformatics have revealed the diversity of virus infections that induce TEs. Furthermore, studies with influenza virus have uncovered how infection-triggered changes to the SUMOylation of TRIM28, an epigenetic co-repressor, lead to TE de-repression. Importantly, there is a growing appreciation of how de-repressed TEs stimulate antiviral gene expression, either via cis-acting enhancer functions or via their recognition as viral mimetics by innate immune nucleic acid sensors (e.g. RIG-I, mda-5 and cGAS). Understanding how viruses trigger, and counteract, TE-based antiviral immunity should provide insights into pathogenic mechanisms.

Topics & Concepts

BiologyInnate immune systemEpigeneticsTransposable elementVirusVirologyRNA interferencePsychological repressionImmunityGene silencingGenomePiwi-interacting RNAImmune systemGeneRNAGeneticsGene expressioninterferon and immune responsesRNA modifications and cancerCytomegalovirus and herpesvirus research
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